[1] Aalst W., van- den Hollander J., Peterse W. J. A.M., Wolff P.M. de., “The modulated structure of -Na2CO3 in a harmonic approximation”, Acta Cryst. B32 (1976) 47-58.
[2] Wolff P. M., de., “The pseudo-symmetry of modulated crystal structures”, Acta Cryst. A30, (1974) 777-785.
[3] Dusek M., Chapuis G., Meyer M., Petricek V., “Sodium carbonate revisited “ Acta Cryst. B59 (2003) 337-352.
[4] Harris M. J., Dove M. T., “Lattice melting at structural phase transitions” Mod. Phys. Lett. B 9 (1995) 67-85.
[5] Swainson I.P., Dove M. T., Harris M. J., “Neutron Powder Diffraction Study of the Ferroelastic Phase-Transition and Lattice Melting in Sodium-Carbonate, Na2CO3”, J. Phys- Condens. Matter, 7, (1995). 4395-4417.
[6] Pater C.J., Helmholdt R.B., “Incommensurate structural phase transformation in. Na2CO3” Phys. Rev. B, 19 (1979) 5735-5745.
[7] Harris M. j., Salje E.K.H., “The incommensurate phase of sodium carbonate: an infrared absorption study” Phys-Condens. Matter, 4 (1992) 4399-4408.
[8] Palatinus L., Dusek M., Glaum R., Bali B. E., “The incommensurately and commensurately modulated crystal structures of chromium(II) diphosphate” Acta Cryst. B62 (2006) 556–566.
[9] Smeets S., Parois P., Bürgib H.-B., Lutz M., “Temperature-dependent analysis of thermal motion, disorder and structures of tris(ethylenediamine)zinc(II) sulfate and tris(ethylenediamine)copper(II) sulfate”, Acta Cryst. B67 (2011). 53–62.
[10] Chin L.F., Kong S.M., Seng H.L., Tiong Y.L., Neo K.E., Maah M.J., Khoo A. S.B, Ahmad M., Hor T.S. A., Lee H.B., “[Zn(phen)(O,N,O)(H2O)] and [Zn(phen)(O,N)(H2O)] with O,N,O is 2,6-dipicolinate and N,O is L-threoninate: Synthesis, characterization, and biomedical properties”. J. Biol. Inorg. Chem. 1 (2012) 1093-1105.
[11] Shen X.Q., Yao H.Ch., Yang R., Li Z.J., Zhang H.Y., Wu B.L., Hou H.gW., Polyhedron, “Synthesis, structure and thermal properties of polynuclear complexes with a new multidentate ligand, N,N′-bis(5-ethyl-1,3,4-thiadiazol-2-yl)-2,6-pyridinedicarboxamide”. polyhedron, 27 (2008) 203- 209.
[12] Soleimani E., “Synthesis, characterization and anti-microbial activity of a novel macrocyclic ligand derived from the reaction of 2,6-pyridinedicarboxylic acid with homopiperazine and its Co(II), Ni(II), Cu(II), and Zn(II) complexes”, J. molecu. Struct., 995 (2011) 1-3.
[13] Mohammadinasab R., Tabatabaee M., Kukovec B.M., Aghaie H., “The cerium(III) coordination polymer with mixed polycarboxylic acids. Preparation of the CeO2 nanoparticles by thermal decomposition of the polymer”, Inorg. Chim. Acta 405 (2013) 368–373.
[14] Tabatabaee M., Rashidi S.h, Islaminia M., Ghassemzadeh M., Molčanov K., Neumüller B., “Two new dinuclear complexes with dipicolinate and bridging 2-aminopyrazine ligands: preparation, structural, spectroscopic, and thermal characterizations”, J. Coor. Chem., 65 (2012) 3449–3457.
[15] Tabatabaee M., Kukovec B.M., Kazeroonizadeh M., “A unique example of a co-crystal of [Ag(atr)2][Cr(dipic)2] (dipic = dipicolinate; atr = 3-amino-1H-1,2,4-triazole) and dinuclear [Cr(H2O)(dipic)(µ-OH)]2, with different coordination environment of Cr(III) ions”, Polyhedron 30 (2011) 1114-1119
[16] Tabatabaee M., “(2-Aminopyrimidine-jN1)diaqua-(pyridine-2,6-dicarboxylato-κ3O2,N,O6)-nickel(II) monohydrate “, Acta Crystallogr. E66 (2010) m647–m648.
[17] Tabatabaee M., Dadkhodaee M.,. Kukovec B.-M,”Different coordination environments of iron(III) and pseudopolymorphism in complexes with dipicolinic acid and 2-amino-6-picoline. The influence of molar ratio and solvent type”, Polyhedron 51 (2013) 316-32.
[18] Tabatabaee M., Abbasi F., kucovek M.B., Nasrirzadeh N.,”Preparation and structural, spectroscopic, thermal, and electrochemical characterizations of iron(III) compounds containing dipicolinate and 2-aminopyrimidine or acridine” , J. Coor. Chem., 64 (2011) 1718-1728.
)